To effectively utilize the LVL beam span calculator, follow these clear step-by-step instructions. Tips for Optimizing LVL beam span calculator Results How to Use LVL beam span calculator.Illustrative Table for LVL beam span calculator.Understanding the LVL beam span calculator Formula.Instructions for Utilizing the Calculator.With the LVL beam span calculator, users can confidently make informed decisions regarding beam sizing and placement, resulting in a more efficient and cost-effective construction process. The benefits of using this calculator include saving time and effort in manual calculations, reducing the risk of errors, and optimizing the use of LVL beams. This calculator provides users with a convenient and efficient way to determine the appropriate span for LVL beams in their construction projects.īy inputting the necessary data or variables, users can obtain accurate results that help ensure the structural integrity and safety of their buildings. With the Microlam Beam Size Calculator, constructing safe and reliable structures has never been easier.LVL beam span calculator is crucial in understanding its importance and relevance. This calculator ensures that the Microlam beam can support the required load and comply with engineering standards and building codes. By inputting the span length, load, maximum allowable deflection, wood species, and beam type, users can quickly calculate the required beam size. The Microlam Beam Size Calculator is a powerful tool that helps builders, engineers, and architects determine the correct size of a Microlam beam for a construction project. Illustrative Example Table: Span Length (ft) Maximum Allowable Deflection: 1.5 inchesĪfter submitting the form, the calculator outputs the required beam size: 3-1/2" x 18".Using the Microlam Beam Size Calculator, you input the following values: You plan to use Southern Pine as the wood species and a 2.0E Microllam beam type. The load on the beam will be 5,000 pounds, and the maximum allowable deflection is 1.5 inches. Let's say you are building a deck that requires a Microlam beam with a span length of 12 feet. The section modulus is then divided by the modulus of elasticity and a safety factor of 0.90 to determine the required beam size. The formula calculates the section modulus required to support the specified span length, load, and maximum allowable deflection. Required Beam Size = 3-1/2" x (Section Modulus / (Modulus of Elasticity x 0.90))" The Microlam Beam Size Calculator uses the following formula to calculate the required beam size: Required Beam Size: The size of the Microlam beam needed for the specific span length, load, maximum allowable deflection, wood species, and beam type.The output fields and their corresponding interpretations are as follows: The calculator provides options for three types of Microlam beams: 2.0E Microllam, 1.9E Microllam, and 1.8E Microllam.Īfter inputting the required information, the calculator will output the required beam size. Beam Type: The type of Microlam beam also affects its strength and stiffness.The calculator provides options for three types of wood species: Douglas Fir-Larch, Southern Pine, and Spruce-Pine-Fir. Wood Species: The type of wood used for the Microlam beam affects its strength and stiffness.It is typically specified by building codes or engineering standards. Maximum Allowable Deflection: This is the amount of deflection or bending that the Microlam beam can undergo before it fails.Load: This is the amount of weight that the Microlam beam will support, including any weight from people, furniture, or equipment.It is a crucial factor in determining the correct size of the beam. Span Length: This is the distance between the two points where the Microlam beam will be installed.The importance and definition of each input field are as follows: Wood Species: The type of wood used for the Microlam beam.Maximum Allowable Deflection: The maximum allowable deflection of the Microlam beam in inches.
Load: The amount of weight that the Microlam beam will support in pounds.Span Length: The length of the span in feet where the Microlam beam will be installed.To use the Microlam Beam Size Calculator, users need to input the following information: Instructions for Utilizing the Calculator
The primary applications of the Microlam Beam Size Calculator are for residential and commercial construction projects, such as building decks, framing roofs, and supporting floors. This calculator is significant because it helps builders, engineers, and architects determine the correct size of a Microlam beam needed for a specific span length, load, maximum allowable deflection, and wood species. The Microlam Beam Size Calculator is a web-based tool designed to assist in calculating the required size of a Microlam beam for a construction project. How to Use the Microlam Beam Size Calculator